Nanosecond Time-Resolved Stimulated Raman Spectra of Benzene under Shock Compression up to 4.2 GPa: Observation of Liquid-Solid Phase Transition
スポンサーリンク
概要
- 論文の詳細を見る
Nanosecond time-resolved stimulated Raman spectroscopy is used to investigate the shock-induced phase transition of liquid benzene. A supercooled state and a liquid-solid phase transition are observed at shock pressures above 2.8 GPa. Time-resolved Raman spectra reveal that the liquid state is initially preserved and rapidly transforms to the solid state under shock compression at 4.2 GPa. Rapid nucleation and growth on a micrometer scale occurs within 20 ns.
- Japan Society of Applied Physicsの論文
- 2004-12-15
著者
-
NAKAMURA Kazutaka
Materials and Structures Laboratory, Tokyo Institute of Technology
-
MATSUDA Akitaka
Materials and Structures Laboratory, Tokyo Institute of Technology
-
Matsuda Akitaka
Institute For Molecular Science National Institutes Of Natural Sciences
-
Kondo K
Materials And Structures Laboratory Tokyo Institute Of Technology
-
Kondo Ken-ichi
Materials And Structures Laboratory Tokyo Institute Of Technology
-
Nakamura K
Materials And Structures Laboratory Tokyo Institute Of Technology
-
Nakamura Kazutaka
Materials And Structures Laboratory Tokyo Institute Of Technology
関連論文
- Spectroscopy of Hard X-Rays (2-15 keV) Generated by Focusing Femtosecond Laser on Metal Targets
- Hard X-Ray Emission from a Copper Target by Focusing a Picosecond Laser Beam at 3×10^W/cm^2
- Flyer Acceleration by Pulsed Laser and its Application to Shock-Recovery Experiment on MnF_2
- Tight-Binding Molecular Dynamics Study of Hydrogen Molecule Inside Silicon Crystal
- Tight-binding Molecular Dynamics Simulation of Desorbed SiO Molecule during the Oxidation of Si(111) Surface
- Tight-Binding Molecular Dynamics Simulation of Desorbed SiO Molecule during the Oxidation of Si(111) Surface
- Picosecond Pulsed X-Ray Diffraction from a Pulsed Laser Heated Si(111)
- Time-Resolved X-ray Shadowgraphy Experiment of Laser Ablation of Aluminum using Laser-Induced Picosecond Pulsed X-rays
- Spall behavior of steels under hypervelocity impact
- Laser-Induced Shock Compression of Tantalum to 1.7 TPa
- FOURTEEN-DAY ORAL COMBINATION DOSE TOXICITY STUDY OF CGS; 16949A (AROMATASE INHIBITOR) WITH 5-FLUOROURACIL OR TAMOXIFEN IN RATS
- Effect of Ion Irradiation on Coherent Phonon Dynamics in Bismuth
- Picosecond Time-Resolved X-ray Diffraction from a Laser-Shocked Germanium Crystal above Hugoniot Elastic Limit
- Picosecond Time-Resolved X-Ray Diffraction of a Photoexcited Silicon Crystal (Short Note)
- Shock-Induced Electromotive Force in Aqueous Solution of Potassium Fluoride
- Picosecond Time-Resolved X-Ray Diffraction from Si(111) under High-Power Laser Irradiation
- Translational Energy Distribution of CO Produced in Infrared-Laser-Assisted Reaction of O_2 with a Graphite Surface
- GeO Desorption in Reactive Scattering of an Oxygen Molecular Beam with a Ge(100)Surface
- Time-Resolved Coherent Anti-Stokes Raman Scattering of Cyclohexane under Shock Compression
- Nanosecond Time-Resolved Stimulated Raman Spectra of Benzene under Shock Compression up to 4.2 GPa: Observation of Liquid-Solid Phase Transition
- Vibration and Rotation of Hydrogen Molecule in Silicon
- Giant Fullerene-Like Hollow Spheres Generated from Shock-Compressed C_ Fullerene by an Impact of Metal Flyer
- Picosecond Time-Resolved X-ray Diffraction from a Laser-Shocked Germanium Crystal above Hugoniot Elastic Limit
- Coherent Optical Phonons in the Iron Oxypnictide SmFeAsO1-xFx (x=0.075)
- New Method for Projectile Velocity Measurement Using Faraday-Type Electromagnetic Sensor for Hypervelocity Impact Experiments and Detection Efficiency of the Method
- Hard X-Ray Emission from a Copper Target by Focusing a Picosecond Laser Beam at $3\times 10^{13}$ W/cm2
- Amplitude Saturation of Coherent Phonon Excited by Field Screening in CdTe
- Flyer Acceleration by Pulsed Laser and its Application to Shock-Recovery Experiment on MnF2
- Nanosecond Time-Resolved Laser-Induced Fluorescence Spectra of Rhodamine 6G Solution in Ethanol under Shock Loading of up to 3.5 GPa
- Radiographic Characterization of Thermal Spray Jets Produced by Electrothermal Explosion of Ceramic Powders
- Shock-Induced Electromotive Force in Aqueous Solution of Potassium Fluoride